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1. Project X. New York, NY. LUKE ARRON GRAY. SENIOR THESIS PRESENTATION. CONSTRUCTION MANAGEMENT | 2010-2011. AFTER. BEFORE. PRESENTATION OUTLINE. 2. Overview Structural Bracing Electrical connection to CHP Matrix Scheduling BIM and Facility Management Integration

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slide1

1

Project X

New York, NY

LUKE ARRON GRAY

SENIOR THESIS PRESENTATION

CONSTRUCTION MANAGEMENT | 2010-2011

slide2

AFTER

BEFORE

PRESENTATION OUTLINE

2

  • Overview
  • Structural Bracing
  • Electrical connection to CHP
  • Matrix Scheduling
  • BIM and Facility Management Integration
  • Conclusion and Recommendations
slide3

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

PROJECT OVERVIEW

PROJECT OVERVIEW

4

  • Location : New York City, NY
  • Function: Office building and theatre
  • Size: 54,640 Square Feet
  • Stories: 6 levels
  • ConstructionSchedule: August 2008- July 2010
  • Project Delivery: Fast track with CM At Risk
  • PROJECT TEAM :
  • Contractor: SKANSKA

Architect: MA Architects

Structural : Robert Silman Assoc.

MEP: FMC Associates

slide4

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

PROJECT OVERVIEW

PROJECT OVERVIEW

4

STRUCTURAL SYSTEM:

10” DEEP TWO-WAY FLAT PLATE FLOOR SLAB

COLUMNS 24’ x 24’

BUILDING ENCLOSURE:

GRANITE BASE

MASONRY BRICK WITH CMU BACKUP

GLASS CURTAIN WALL

TERACCOTA CROWN

ELECTRICAL SYSTEM:

208Y/120V, 3-PHASE

MECHANICAL SYSTEM:

HW/CW SUPPLIED BY CENTRAL UTILITY PLANT

slide5

ProjectOverview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

4

STRUCTURAL BRACING

slide6

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

STRUCTURAL BRACING

STRUCTURAL BRACING

4

  • GOALS
  • Increase productivity on site by reducing site congestion
  • Use the light wt. bracing for temporary shoring of the concrete slab
  • BACKGROUND :
  • Original building 33,000 SF since1918
  • Volume of the theater to remain
  • PROBLEM :
  • The original two story k-bracing increased site congestion
  • The original two story k-bracing was only used temporary bracing
slide7

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

STRUCTURAL BRACING

STRUCTURAL BRACING

4

WIND LOADS:

F=qzGCfAf(lb)(N)=0.0171ksf

SELF WEIGHT:

Type M mortar three coarses thick brick=2klf

CONTROLLING LOAD COMBINATION:

D3=1.2DL+1.6W

  • Structural Loads
  • Computer Model
  • Results
slide8

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

STRUCTURAL BRACING

STRUCTURAL BRACING

4

MOMENT CAPACITY OF MASONRY WALL:

0.88 kip*ft/ft

MOMENT WITHOUT BRACING:

3.91 kip*ft/ft

MOMENT OF MASONRY WITH BRACING:

0.8kip*ft/ft

DEFLECTION:

L/240=0.85in

MODEL’S MAXIMUM DEFLECTION:

0.33in

  • Structural Loads
  • Computer Model
  • Results
slide9

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

STRUCTURAL BRACING

STRUCTURAL BRACING

4

  • MATERIAL TAKEOFF WITH RAM ELEMENTS
  • L 3x3x3/16
  • L 5x5x5/16
  • MC 6x12
  • W6x9
  • COST
  • $32,000
  • SCHEDULE
  • Original 18.9 days
  • Alternative 25.1 days
  • Structural Loads
  • Computer Model
  • Results
slide10

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

STRUCTURAL BRACING

STRUCTURAL BRACING

4

  • ADVANTAGES:
  • Decreased site congestion
  • Decreased required shoring
  • DISADVANTAGE:
  • Increased steel installation time
  • Structural Loads
  • Computer Model
  • Results
slide11

ProjectOverview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

ELECTRICAL CHP CONNECTION

4

slide12

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

ELECTRICAL CHP CONNECTION

ELECTRICAL CHP CONNECTION

4

  • BACKGROUND :
  • Three steam turbines producing a total of 13.4 MW
  • Emergency electrical power to 18 University’s buildings
  • Connected to 40 cw/hw Universit’s buildings
  • Currently Project X is connected to CHP’s Plant cw/hw piping
  • PROBLEM :
  • Project X is not connected to CHP electrical supply
  • Rising electricity costs
  • GOALS
  • Reduce peak demand electrical loads
  • Identify financial incentives in New York
slide13

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

ELECTRICAL CHP CONNECTION

ELECTRICAL CHP CONNECTION

4

  • ELECTRICAL LOADS:
  • Equest
    • Takes into account cw/hw chp plant
    • Summer peak electrical load 330 kW
  • Results
  • Electrical Loads
  • Equipment
slide14

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

ELECTRICAL CHP CONNECTION

ELECTRICAL CHP CONNECTION

4

  • ELECTRICAL EQUIPMENT:
  • Woodward SPM-D21
  • Woodward 2301D Load sharing and speed control for generator
  • GE 100kVA transformer
    • ∆13.8kVA to 208Y/120
  • Circuit breakers, conductors, conduit
  • Results
  • Electrical Loads
  • Equipment
slide15

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

ELECTRICAL CHP CONNECTION

ELECTRICAL CHP CONNECTION

4

  • SYSTEM COST
  • $25,000
  • INCENTIVES:
    • Con Edison’s Commercial System Relief Program
  • Program activated by Con Edison during:
    • Summer peak days
    • System critical situation
  • PAYBACK:
  • 4 YEARS
  • Results
  • Electrical Loads
  • Equipment
slide16

ProjectOverview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

MATRIX SCHEDULE

4

slide17

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

MATRIX SCHEDULE

MATRIX SCHEDULE

4

  • GOALS
  • Re-sequence the under ground utilities during the demolition of the project
  • BACKGROUND :
  • The underground utilities work was scheduled after the masonry construction
  • PROBLEM :
  • Project delays caused u/g utilities to final month of project
slide18

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

MATRIX SCHEDULE

4

slide19

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

MATRIX SCHEDULE

MATRIX SCHEDULE

4

  • PROJECT PHASES:
  • Stage 1: UNDER GROUND CHP/UTILITY, DEMOLITION
  • Stage 2: EXCAVATION, FOUNDATIONS
  • Stage 3: CAST-IN-PLACE BUILDING FRAME, FAÇADE, INTERIOR FIT-OUT
  • Stage 4: THEATER INTERIOR FIT-OUT, LANDSCAPING
slide20

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

MATRIX SCHEDULE

MATRIX SCHEDULE

4

slide21

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

MATRIX SCHEDULE

MATRIX SCHEDULE

4

  • CONCLUSIONS:
  • FOR LOGISTICAL REASONS IT IS ALWAYS BETTER TO DO THE SITE U/G UTILITY BEFORE THE SUPER STRUCTURE CONSTRUCTION BEGINS
  • THE CROWDED CONSTRUCTION SITE IN NYC PROVED TO BE THE IDEAL SELECTION FOR CREATING A MATRIX SCHEDULE
slide22

PRESENTATION OUTLINE

  • ProjectOverview
  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Utilities Schedule
  • Facade Schedule
  • Super Structure Schedule
  • Integrated Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

BIM AND FM INTEGRATION

4

slide23

PRESENTATION OUTLINE

  • Project Overview
  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Utilities Schedule
  • Facade Schedule
  • Super Structure Schedule
  • Integrated Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

BIM AND FM INTEGRATION

BIM AND FM INTEGRATION

4

  • BACKGROUND :
  • 50% of the building construction industry is now using BIM
  • PROBLEM :
  • Building owners don’t know how to use BIM after construction
  • Building owners don’t require the FM data to be included in the BIM
  • Inputting FM data into CMMS (Computer Maintenance Management System) can take up to six months

GOALS

slide24

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

BIM AND FM INTEGRATION

4

  • Available Technology
    • Most technicians don’t have laptops
    • Most only have a PDA
      • Limited screen size and Limited File Size
    • Computer work stations are available throughout campus
  • Parameters
    • Uniformat
    • CoBie
  • Process Map
  • Job Shadowing
    • Field Data

Facility Management

Work Orders

Description of Work: Room too cold. HVAC Unit Blowing Cold Air

Location: 0503000-543 DEIKE Building -05 Staff Office

Equipment:

F/P: Facility planning

RPT: 3:45pm 12/15/2010

Contact: Name

Phone Number:

Location: Hyperlink to drawing

Equipment: link to equipment’s Excel file

slide25

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

BIM AND FM INTEGRATION

4

  • Parameters
    • Uniformat
    • CoBie
  • Process Map
  • Job Shadowing
    • Field Data
slide26

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

BIM AND FM INTEGRATION

4

  • Parameters
    • Uniformat
    • COBie
  • Process Map
  • Job Shadowing
    • Field Data
  • Type worksheet:
  • Overview of the designers, builders, and manufactures’ information.
slide27

Project Overview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

BIM AND FM INTEGRATION

4

slide28

ProjectOverview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

BIM AND FM INTEGRATION

BIM AND FM INTEGRATION

4

  • CONCLUSIONS:
  • Both Maximo HVAC controls, and Revit can link data to equipment Excel file
    • ODBC-Open database connectivity
  • Develop a prototype for one building
  • Develop a protocol for flagging changes made to the project in the field
  • Develop searchable parameters for BIM
slide29

ProjectOverview

  • Structural Lateral Bracing
  • Structural Loads
  • Computer Model
  • Conclusion and Recommendations
  • Electrical Connection to CHP
  • Electrical Loads
  • Electrical Equipment
  • Conclusion and Recommendations
  • Matrix Schedule
  • Create Zones
  • Create Matrix Schedule
  • Conclusion and Recommendations
  • BIM and Facility Integration
  • Conclusion and Recommendations

PRESENTATION OUTLINE

ACKNOWLEDGEMENTS

QUESTIONS

4

SUMMARY & CONCLUSIONS

  • FRIENDS AND FAMILY
  • ARCHITECTURAL ENGINEERING FACULTY
  • SKANSKA BUILDING USA
  • OFFICE OF PHYSICAL PLANT (OPP)
  • STRUCTURAL BRACING
  • Reduce site congestion
  • Decreased required shoring
  • Increased installation time
  • ELECTRICAL CHP CONNECTION
  • System cost $25,000 with 4 year payback
  • MATRIX SCHEDULE
  • For logistical reasons it is always better to do the u/g utilities before structure
  • The crowded construction site of NYC proved to be the ideal selection for creating a matrix schedule.
  • BIM AND FM INTEGRATION:
  • Both Maximo HVAC controls and Revit can link data to equipment Excel file
  • Develop a prototype for one building
  • Develop a protocol for flagging changes
  • Develop searchable parameters for BIM and FM